Products for Membrane Filtration

The Right Membranes and Modules for a Multitude of Applications

Customers, plant manufacturers and engineering companies from all over the world are using our&n↓bsp;membrane products. For us this is a reliable indication for their coδnfidence, trust and faith in our company and products.
 

Membranes and modules for the water Filtration and wastewater treatment

During the last 50 years MICRODYN-NADIR gathered its customers´ trust wi​th hard work and innovative membrane products like the BIO-CEL^® module as well as with superior quality Membrane Bioreactor (MBR) technologies, like our BIO-CEL^® MCP (Mechanical Cleaning Process). Moreover, we are a well-known and successful manufa‍cturer of durable modules for industrial applications ®in markets, such as the Pharmaceutical, the Chemical and the Food & Beverage Industry.
In order to ensure the highest quality and superior pro∏duct performance, MICRODYN-NADIR ascertains its products´ reliability and inσtegrity for the manufacturing and application process already at the research and product← development stage.
 

A wide range of membrane and module configurations for water- a©nd wastewater treatment

 
MICRODYN-NADIR products are designed for different pressure-driven processes, s™uch as crossflow, semi-and dead-end operation. We deliver high quality membranes based on:
 
·  Polypropylene (PP)
·  Polyethylene (PE)
·  Polyethersulfone (PES)
·  Polyacrylonitrile (PAN)
·  Polystrene (PS)
·  Polyvinylidene fluorid (PVDF)
·  Regenerate Cellulose (RC)
 

High quality standards for safe water-and wastewater treatment

 

NADIR^® Membranes

Membranes and Formats for Filtration Challenges

   

For more than 50 years MICRODYN-NADIR has been manufacturing flat sheet membranes in one of Europeε's largest membrane production facilities for municipal and industrial applications.


NADIR^® membranes are permanently hydrophilic and chemically< resistant. The NADIR^®membranes are produced with the highest quality and consistenc y in a specially developed process.
 

Chemically resistant and hydrophilic flat sheet membranes made of different polymers®

 
The results speak for themselves: the unequalled hydrophilic properties of NADIR^® membranes increase performance, longevity and significantl​y reduced fouling. NADIR^® membranes are available with cut-offs covering the spectrum of micro-, ultra-★ and nanofiltration applications.
 

NADIR^® membranes are available in a range of polymeric materials:


 
·  Polyethersulfone (PES)
·  Hydrophilic Polyethersulfone (PESH) and Polysulfone (PSUH)
·  Regenerated Cellulose (RC)
·  Polyvinylidenefluoride (PVDF)

 
These materials can be used in a wide range of applications.
 

SPIRA-CEL^® Spirals

Membrane Filtration with Spiral Wound Modules based on NADIR^® Flat Sheet Membranes

 Spiral wound modules have a great variety of potentia≠l combinations and consequently this module type is the most ×common installed in filtration plants. They are used in applications ranging fro¶m the beverage, food and the pharmaceutical industry to environmental and biotechnol₽ogical processes. The modules are used to separate particles like colloids, proteins and micro-o☆rganisms and to decontaminate fluids.
 

SPIRA-CEL^® spiral wound modules – compact design

 
SPIRA-CEL^® spiral wound modules are available with all types of&↔nbsp;NADIR^® membranes (microfiltration, ultrafiltration, nanofi®ltration). They have a compact design and offer an optimum surface-area-to-volume-ratio.
The feed channel height can be varied by the thickness of t he spacer material (from 30 to 80 mil). This allows to adapt to different levels of solids cont≠ent of the liquid. This design feature leads to excellen t hydrodynamics in combination with low energy demand.
 
 

A variety of module configurations for different applications

 

SPIRA-CEL^® spiral wound modules have an outstandingly high stability agai≠nst temperature and pH. They can be used to clean both caustics and acids. They can also be used in biotechnological applications where extreme cleaning conditions aσre required.
 

In addition to the commercialized SPIRA-CEL^®-OX type modules (pH range of 3-14, and operational temperature of 80 °C)× SPIRA-CEL^®-OY type modules are also available with a pH range of 0 -12 and operation♥al temperature of 80 °C. These module types are offered with polyλethersulfone membranes in microfiltration, ultrafiltration and nan™ofiltration ranges.

MICRODYN-NADIR’s SPIRA-CEL^® modules are readily available in different constructions depending on the area of ☆application: Process industry, biotechnological processes and food inβdustry.
 

MICRODYN RO

High Rejection Brackish Water RO Elements

Reverse osmosis (RO) membranes remove a large majority of contaminants from water, including even ©the smallest monovalent ions. RO is capable of rejecting over§ 99% of dissolved salts (ions), particles, organics, and more from the feed water. &nbεsp;
 
The MICRODYN RO series of brackish water RO membranes is ideal for  water purification applications. These elements feature our best membrane for directly  replacing competitive RO products and offer very high solute rejection. MICRODYN RO ele£ments are available globally and can be sourced froπm our plants in the United States, China, and Germany.
 
Direct replacements to seamlessly meet your RO needs:&♥nbsp;
 
MICRODYN RO elements are available in standard 4” and 8” spiral-wound designs™ to meet all of your new equipment and direct replacement needs. With permeate tubes sized to mat≥ch standard designs, MICRODYN RO elements make it easy t o directly replace competitive RO elements. For deta®iled technical information, please see our technical data sheet.
 
 
·  MICRODYN RO 8040-BW-400:
   Technical Data Sheet
·  MICRODYN RO 4040-BW
   Technical Data Sheet
 
MICRODYN RO elements are ideal for a variety of applications:
 
 
·  Boiler feedwater
·  Industrial process water
·  Water re-use
·  Polishing effluent from MBR or UF
 
 

Hollow Fiber Membrane Modules for Water Filtration (Ultrafiltration)

The conventional treatment of water is based on a multi-step process including pre-filtration,♦ precipitation/flocculation/coagulation, sedimentatio>n, sand filtration and finally disinfection.

Despite this complex process technology a constant effluent¶ quality at raw water deviations is not always possible. Therefore, the dosage of additives ne$eds to be adjusted which could result in high operating• costs.
 

Physical separation processes with membrane technology – u≤ltrafiltration for water filtration

 
Physical separation processes using membrane technology, on the other hand, disp×lay another wastewater treatment option. Especially εultrafiltration is an established technology with respect to environmentally friendl↕y and almost residue-free water treatment processes.
 

Double asymmetric hydrophilic low fouling/high flux hollow fiber membranes

 
The AQUADYN^® hollow fiber modules with their hydrophilic low fouling – high flux membranes are€ excellent solutions for the efficient treatment of large volumes of water. They are oper¥ated in dead end mode.

The double asymmetric hollow fiber membranes, which are integrated" in our ultrafiltration modules for water filtβration, offer another advantage over single asymmetric membran∏es. Bacteria, solids and turbidity can be rejected effectively due to a filtra↕tion layer (ultrafiltration membrane) inside and out♦side the hollow fiber. Therefore, problems such as pore cloggi∏ng during backflush do not occur.
 

Plant engineering – plant operation – applications for AQUAD YN^® modules

Plant Structure

  

•   compact design allows for smaller plant sizes
•   high level of automation possible

 

Plant Operation

 

•   easy pre-treatment even at high raw water turbidity
•   continuously high and stable permeate performance
•   modular construction provides high flexibility for fluctuations in water demand₩
•   high recovery rates
•   minimal cleaning demand resulting in:
•   less permeate consumption for cleaning
•   high operational availability
•   low operating costs 

Applications for AQUADYN^® ultrafiltration modules

 

•   effluent treatment after biological treatment↑ plants
•   pre-treatment for reverse osmosis (sea water desalination and boiler feed production)
•   stormwater treatment
•   production of industrial water from river water
•   cooling water
•   filtration of industrial water for the food industry
•   borehole water treatment
•   karst water filtration
•   drinking water filtration

 

SEPRODYN^® Tubular Modules

Tubular Modules for Fine Filtration

SEPRODYN^® filters are crossflow microfiltration modules used to separate suspended solids larger than 1.0 micron. The highly porous membrane contribγutes to a very high product flux and, with the ability to employ periodic back flush, stable and efficient processes for water filtration and wastewater treatmenγt are achievable.

 

Stable tubular membrane modules – usable across the full pH range 0 to 14

 

SEPRODYN^® tubular modules use a smart processing technique that allows membranes to be used in appli♦cations which require highly stable polymer materials. These membrane modules can≥ be used across the entire pH-range from 0 to14 and are÷ especially recommended in applications that requir↑e a high resistance against abrasive substances.

 

SEPRODYN^® tubular modules for the filtration of solutions with high solids content

 

SEPRODYN^® membranes are self-supporting and extremely robust tubular memβbranes. Because of their large inner diameter of 5.5 mm, liq<uids with a high percentage of suspended solids can be filtered. The SEPR©ODYN^® solution offers an extremely high packing density per module.

The tubular membranes are made of ultra-high molecular polyethylene made in a patented p↔rocess by MICRODYN-NADIR. The membrane structure is symmetrical a nd even across the entire wall thickness. This ensures that the membrane separa≤tion performance is not affected when the membrane surface is damaged by abras¶ive material. The membranes are welded together with the& housing. Since the housing and the membrane are both Polyethylene, a very stabl♣e bond between the membranes and the housing is achieved.

 

MICRODYN^® MF Modules

Tubular and Capillary Modules for the Microfiltration



MICRODYN tubular and capillary filter modules have been developed for crossflow microfiltration. This type of crossflow microfiltration represents a moder<n filtration method for the separation of suspended particles or emulsified liquids.
 

MICRODYN – high integrity due to symmetrical membrane structure

 
The highly porous symmetrical structure of the MICRODYN membrane leads to&n™bsp;extremely high permeability rates. The pore size distribution is very narrow making sharp separations possible. The MICRODYN∑ membrane is very resistant to abrasion and other mechanical damage due to its homogeαneous construction, unlike asymmetrically structured ceramic membra€nes. It also has great chemical resistance because of t>he material properties of polypropylene.
 

MICRODYN modules: hollow fiber modules, capillary modules and tubularφ modules

 
The MICRODYN membranes are available as hollow fibers, capillaries and tubes. Capillary and hollow fiber membranes are potted in the module housing. The centrifugal ×casting of the potting material guarantees high product quality. Tubular membranes are welded ∏together integrally with the housing. This makes gaskets or other sealing materials unnecessary©. The modules are therefore extremely chemically stable and robφust (pH range 0 to14).
 

High and stable filtration performance with MICRODYN polypropylene membrane moγdules

 
Any surface deposits formed during filtration can <be easily 
minimized by:

 
·  adjusting the velocity of the feed flow
·  periodic back washing (PRS)
·  chemical cleaning in reverse flow to the filtration flow

 
These mechanisms result in consistently high performance lev els and many years of trouble-free operation. Polypropylene is resista"nt to many organic and inorganic chemicals, including most acids a₽nd caustics, with the exception of oxidants. The&nbs↔p;MICRODYN microfiltration modules can be used for the filtration of mostΩ liquids and mixtures of these chemicals.
 
 

MICRODYN BIO-CEL^® MBR

Submerged MBR-Module based on Flat Sheet Membranes (Membrane BioΩreactors)

 

 Tighter discharge regulations, urbanization and the increase in water recycling h₹ave made Membrane Bioreactors (MBR) the leading innovation in wastewater treatment through conventional activated sludge.
 
Traditionally, activated sludge treatment relies upon solids settling in a secondary cl>arifier to separate the biomass from the treated waste'water. This process has the disadvantages of running at a low↓er MLSS (Mixed Liquor Suspended Solids), thus requiring moφre space and producing lower and varying quality effluent.
 

Operation with high solids content (MLSS) and constant flux rates

 
With Membrane Bioreactor (MBR) technology, the clarifier is repla₹ced by a physical barrier – the BIO-CEL^® membrane module. This physical barrier enables the Membrane Bioreactor (MBR♣) to operate at higher MLSS levels, thereby requiring a smaller overall footprint. The BIO-CEL^® membrane modules operate within the ultrafiltra©tion spectrum, producing high capacities of quality effluent at ≈consistent flows. 
Efficiency, reliability and cost effectiveness ↕; as well as longterm viability are just some of the cha¶racteristics of the BIO-CEL^® module. The effluent is suitable for:
 

•   recycling applications
•   irrigation purposes
•   use as feeds for process water
•  

BIO-CEL^® offers the best of the two predominant module configura♣tions on the market

 
BIO-CEL^® combines the benefits of traditional hollow fiber and plate a↕nd frame configurations without any of their inherent disadvantages. 
The self∑-supporting membrane sheet is just 2 mm thick, resulting in an ex↕tremely high packing density and very low specific energy consαumption.
Moreover, the laminate offers a self-healing mechanism. In case of damage caused to the membrane the spacer material in between the BIO-CEL^® membrane laminate sheets allows for a sealing of th§e damage through the help of the biomass in the system. E↑ven after the occurence of a severe detraction of the membrane laminate, solids and  bacteria can still be rejected by the membrane bioreactor module.
 

The smart design of the BIO-CEL^® membrane bioreactor (MBR) module

 
The BIO-CEL^® configuration is based on flat sheet technology, βwith crossflow inhibiting clogging and reducing downt→ime.
The modules´ open top and bottom channels reliably prevent the depo©sition of sludge and fiber accumulation during the contin¥uous crossflow operating process. The self-supporting s∑tructure of the membrane module enables frame-free installation, thus eliminating blockages around the external boundaries of each component. The membrane module ♣is configured to allow for consistent permeate flow and a highly effective backflush over the entire membrane surface. In summary, the BIO-CEL^® offers high packing density with optimal separation.

For large-scale applications with a total inflow to t€he MBR plant of > 2,000 m³/d of wastewater to be treated the BIO-CEL^® XL with a total membrane area of 1,920 m² has been developed.
 
For further information on MICRODYN-NADIR  products, ple≠ase do not hesitate to contact  our technical servic♥e team. We look forward to helping you meet all of your membrane needs.

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